Thoughts from the book:
Before Controlled Fire
Think back to what it must have been like on the African plains before 400,000 years ago. Sometimes when the evening came the heavens wouldn’t always have been as dark as we we city dwellers are used to today, with our cities producing a large amount of light pollution. When there were no clouds the milky way with the stars sprinkled all over the sky and the moon would have been our companions.
Wether or not it was cloudy or clear at night, it would not have been enough light available for us to do much productive work in, and of course moon and star light does not warm us.
Before we could control fire we could stay up late, but there was likely little incentive to do so and in darkness we would soon tire.
Early Use of Fire
We have used fire to burn off unproductive vegetation and encourage new growth which in turn also encourage more small animals to come for longer than records can tell us. You could say that our use of fire was ‘fire-stick’ farming.
Controlled Use of Fire
Fire reduced the harshness of winter, allowing us to occupy cooler places and thereby become masters of larger parts of our planet.
Fire helped improve toolmaking by allowing us to harden blades. Fire would also help us make functional pottery, heat rocks to free metals and later bake tokens and tablets for the first writing.
Fire changed our diet by allowing us to cook food, making pieces of meat we could previously not eat tender through the heat, making meat last longer after cooking and reducing parasites (which may have had very far reaching consequences beyond reducing illness from hostile parasites, considering that our healthy, functioning bodies today are host to a very large number (by some measures it could be 95%) of bacteria in a commensalistic (non-harmful to the host relationship) relationship).
Fire also became used for signaling using smoke which contributed to inter-tribal communication and collaboration – when you have a longer range means of communication it pays to use it by making allies of those you can reach, to help you prepare for attacks by those further away. There is speculation that this may have been a key to us winning out over the Neanderthals – wider cooperation made possible by fire smoke signaling.
Sociability & The Creative Mindset
We build hearths and start to see the world in a different light, visually as well as metaphorically
The Games People Play
Maybe we create the first ‘games’ on such evenings? Maybe it started with more controlled play? Maybe we added ‘game pieces’ later, in a mirror of how we invented counting and writing? I would like to suggest that the difference between sports (team or individual) and games (card games through chess etc.) is largely that sports are daylight activities with emphasis on competition but games are evening purists with emphasis on sociability. Can it be that games made us more social, rather than gaming coming from our sociability? Maybe, but it’s clear a different social interaction would take form in such closely huddled, warm and safe settings.
Whatever the stages of social evolution, the animal which spreads out at leisure during the day and goes to sleep when the sun goes down, is a very different animal from the one which huddles closer long into the evening, around a warming, illuminating fire, bringing the individuals closer.
Over the eons, all life evolved in the pulse of light and dark, lasting a day and a night, with varying lengths depending on the time of year (which is why Circadian Rhythm, derived from the Latin words ‘circa dies’ meaning “approximately a day”.) The timing of the sun moving across the heavens and disappearing was always with us. Our eyes evolved… “… from a simple light sensor for circadian and seasonal rhythms around 600 million years ago to an optically and neurologically sophisticated organ by 500 million years ago.” Trevor D. Lamb.
The Rhythm : The Light
With fire, there was reason to stay awake longer, and we did: Humans historically spend about 8 hours a night sleeping, whereas our closest cousins chimps, rhesus monkeys, squirrel monkeys and baboons spend 10 hours in bed (thinkquest.org). Gorillas 12 and owl monkeys spend 17 hours sleeping per day. Fire definitively seems to have lengthened our waking time.
As we stay awake longer, most of the predators we fear are kept at bay by the firelight so we can relax more than we can during the day or during the night before the time we controlled fire.
The Rhythm : The Chemicals
Joan Roberts explains that: “Because of these hormonal changes, the circadian dark/light cycle controls and modifies the sleep/wake cycle, blood pressure, metabolism, reproduction, and the immune response.”
The sunset period allows for the production of Melatonin which promotes sleep and dreaming. World Of Molecules reports on research by Alan Lewis (Melatonin and the Biological Clock 1999) that some hallucinogenic drugs emulate melatonin activity in the awakened state and that both act on the same areas of the brain.
Controversial as it may be that Melatonin may have hallucinogenic properties, it’s clear that we are chemically different during the morning, noon, evening and night and with fire twilight has been stretched beyond what was available before – we become relaxed, yet there is reason and opportunity to stay awake for longer. This is a new chemical state of mind, brought about by the new, longer evening light.
The Creative Mindset
Picture further how fire would allow us to shine flickering lights on cave paintings, giving life and ‘animating’ the lines we mark.
Being tired during the day you have the sun’s signals telling you to wake up. Being tired at night you are in synch with your body chemistry and you can think looser, without the stress of reality in the form of stress and alertness hormones shaping the meanderings of your musings.
Dreams are made when we are safe, free, warm and relaxed.
Dreams are realized in the cold glare of reality.
Together we have a harmony of progress.